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The Visible Infrared Imaging Radiometer Suite (VIIRS) instrument is aboard the joint NASA/NOAA Suomi National Polar-orbiting Partnership (Suomi NPP), NOAA-20 and NOAA-21 satellites. (Note: Prior to launch, NOAA-20 was known as the Joint Polar Satellite System, or JPSS-1, satellite and NOAA-21 was known as JPSS-2)

VIIRS-Land Data and Information

To download VIIRS near real-time (NRT) data, register for an Earthdata Login. Use the table below to access specific LANCE data products.

VIIRS Corrected Reflectance Imagery is produced in NRT, providing continuity from the Moderate Resolution Imaging Spectroradiometer (MODIS) Corrected Reflectance imagery, which was developed to provide natural looking images. Read more about VIIRS Corrected Reflectance Imagery at the bottom of this page.

For atmosphere data, see LANCE VIIRS-Atmosphere data products.

Collection 2 VIIRS/Suomi NPP

Product NameDownloadVolume
GB/day
PGELatency (h:mm)
min / avg / max
DOI
VIIRS/NPP Raw Radiances in Counts 6-Min L1A Swath - NRTVNP01_NRT65500- / - / -VNP01_NRT.002
VIIRS/NPP Day/Night Band 6-Min L1B Swath SDR 750m NRTVNP02DNB_NRT9502- / - / -VNP02DNB_NRT.002
VIIRS/NPP Moderate Resolution Bands L1B 6-Min Swath 750m NRTVNP02MOD_NRT31502- / - / -VNP02MOD_NRT.002
VIIRS/NPP Imagery Resolution 6-Min L1B Swath 375m NRTVNP02IMG_NRT41502- / - / -VNP02IMG_NRT.002
VIIRS/NPP Dual Gain Intermediate Product - NRTVNP02GDC_NRT65502- / - / -VNP02GDC_NRT.002
VIIRS/NPP Day/Night Band Terrain Corrected Geolocation L1 6-Min Swath 750m NRTVNP03DNB_NRT29501- / - / -VNP03DNB_NRT.002
VIIRS/NPP Moderate Resolution Terrain-Corrected Geolocation L1 6-Min Swath 750m NRTVNP03MOD_NRT22501- / - / -VNP03MOD_NRT.002
VIIRS/NPP Imagery Resolution Terrain-Corrected Geolocation L1 6-Min Swath 375m NRTVNP03IMG_NRT78501- / - / -VNP03IMG_NRT.002
VIIRS/NPP Atmospherically Corrected Surface Reflectance 6-Min L2 Swath IP 375m, 750m NRTVNP09_NRT33511- / - / -VNP09_NRT.002
VIIRS/NPP Surface Reflectance Daily L2G Global 1km and 500m SIN Grid NRTVNP09GA_NRT41517- / - / -VNP09GA_NRT.002
VIIRS/NPP Surface Reflectance Daily L3 Global 0.05 Deg CMG NRTVNP09CMG_NRT0.90575- / - / -VNP09CMG_NRT.002
VIIRS/NPP Snow Cover 6-Min L2 Swath 375m NRTVNP10_NRT35.55507- / - / -VNP10_NRT.002
VIIRS/NPP Active Fires 6-Min L2 Swath 750m NRTVNP14_NRT0.41510- / - / -VNP14_NRT.002
VIIRS/NPP Active Fires 6-Min L2 Swath 375m NRTVNP14IMG_NRT0.41510- / - / -VNP14IMG_NRT.002
VIIRS/NPP Land Surface Temperature and Emissivity 6-Min L2 Swath 750m NRTVNP21_NRT0.94616- / - / -VNP21_NRT.002
VIIRS/NPP Land Surface Temperature and Emissivity 6-Min L2 Swath 375m NRTVNP21IMG_NRT480609- / - / -VNP21IMG_NRT.002
VIIRS/NPP Sea Ice Cover 6-Min L2 Swath 375mVNP29_NRT34.18508- / - / -VNP29_NRT.002
VIIRS/NPP Ice Surface Temperature 6-Min L2 Swath 750m NRTVNP30_NRT18.75505- / - / -VNP30_NRT.002
VIIRS/NPP BRDF/Albedo Model Parameters Daily L3 Global 500 m SIN Grid NRTVNP43IA1N24.7523N- / - / -VNP43IA1N.002
VIIRS/NPP BRDF/Albedo Quality Daily L3 Global 500 m SIN Grid NRTVNP43IA2N4.3523N- / - / -VNP43IA2N.002
VIIRS/NPP Albedo Daily L3 Global 500 m SIN Grid NRTVNP43IA3N17523N- / - / -VNP43IA3N.002
VIIRS/NPP Nadir BRDF-Adjusted Reflectance Daily L3 Global 500 m SIN Grid NRTVNP43IA4N13.5523N- / - / -VNP43IA4N.002
VIIRS/NPP BRDF/Albedo Model Parameters Daily L3 Global 1 km SIN Grid NRTVNP43MA1N8.6523N- / - / -VNP43MA1N.002
VIIRS/NPP BRDF/Albedo Quality Daily L3 Global 1 km SIN Grid NRTVNP43MA2N0.25523N- / - / -VNP43MA2N.002
VIIRS/NPP Albedo Daily L3 Global 1 km SIN Grid NRTVNP43MA3N5.8523N- / - / -VNP43MA3N.002
VIIRS/NPP Nadir BRDF-Adjusted Reflectance Daily L3 Global 1 km SIN Grid NRTVNP43MA4N50523N- / - / -VNP43MA4N.002
VIIRS/NPP Daily Gridded Day Night Band 500m Linear Lat Lon Grid Night NRTVNP46A1_NRT20554N- / - / -VNP46A1_NRT.002
VIIRS/NPP Granular Gridded Day Night Band 500m Linear Lat Lon Grid Night NRTVNP46A1G_NRT49554N- / - / -VNP46A1G_NRT.002

Collection 2 VIIRS/NOAA-20 (JPSS-1)

Product NameDownloadVolume
GB/day
PGELatency (h:mm)
min / avg / max
DOI
VIIRS/JPSS1 Atmospherically Corrected Surface Reflectance 6-Min L2 Swath IP 375m, 750m NRTVJ109_NRT33511- / - / -VJ109_NRT.002
VIIRS/JPSS1 Surface Reflectance Daily L2G Global 1km and 500m SIN Grid NRTVJ109GA_NRT41517- / - / -VJ109GA_NRT.002
VIIRS/JPSS1 Surface Reflectance Daily L3 Global 0.05 Deg CMG NRTVJ109CMG_NRT0.90575- / - / -VJ109CMG_NRT.002
VIIRS/JPSS1 Snow Cover 6-Min L2 Swath 375m NRTVJ110_NRT35.55507- / - / -VJ110_NRT.002
VIIRS/JPSS1 Active Fires 6-Min L2 Swath 375m NRTVJ114IMG_NRT0.41530 VJ114IMG_NRT.002
VIIRS/JPSS1 Land Surface Temperature and Emissivity 6-Min L2 Swath 750m NRTVJ121_NRT0.94616- / - / -VJ121_NRT.002
VIIRS/JPSS1 Land Surface Temperature and Emissivity 6-Min L2 Swath 375m NRTVJ121IMG_NRT480609- / - / -VJ121IMG_NRT.002
VIIRS/JPSS1 Sea Ice Extent 6-Min L2 Swath 375m NRTVJ129_NRT34.18508- / - / -VJ129_NRT.002
VIIRS/JPSS1 Ice Surface Temperature 6-Min L2 Swath 750m NRTVJ130_NRT18.75505- / - / -VJ130_NRT.002
VIIRS/JPSS1 BRDF/Albedo Model Parameters Daily L3 Global 500 m SIN Grid NRTVJ143IA1N24.7523N- / - / -VJ143IA1N.002
VIIRS/JPSS1 BRDF/Albedo Quality Daily L3 Global 500 m SIN Grid NRTVJ143IA2N4.3523N- / - / -VJ143IA2N.002
VIIRS/JPSS1 Albedo Daily L3 Global 500 m SIN Grid NRTVJ143IA3N17523N- / - / -VJ143IA3N.002
VIIRS/JPSS1 Nadir BRDF-Adjusted Reflectance Daily L3 Global 500 m SIN Grid NRTVJ143IA4N13.5523N- / - / -VJ143IA4N.002
VIIRS/JPSS1 BRDF/Albedo Model Parameters Daily L3 Global 1 km SIN Grid NRTVJ143MA1N8.6523N- / - / -VJ143MA1N.002
VIIRS/JPSS1 BRDF/Albedo Quality Daily L3 Global 1 km SIN Grid NRTVJ143MA2N0.25523N- / - / -VJ143MA2N.002
VIIRS/JPSS1 Albedo Daily L3 Global 1 km SIN Grid NRTVJ143MA3N5.8523N- / - / -VJ143MA3N.002
VIIRS/JPSS1 Nadir BRDF-Adjusted Reflectance Daily L3 Global 1 km SIN Grid NRTVJ143MA4N50523N- / - / -VJ143MA4N.002
VIIRS/JPSS1 Daily Gridded Day Night Band 500m Linear Lat Lon Grid Night NRTVJ146A1_NRT20554N- / - / -VJ146A1_NRT.002
VIIRS/JPSS1 Granular Gridded Day Night Band 500m Linear Lat Lon Grid Night NRTVJ146A1G_NRT49554N- / - / -VJ146A1G_NRT.002

Collection 2.1 VIIRS/NOAA-20 (JPSS-1)

Product NameDownloadVolume
GB/day
PGELatency (h:mm)
min / avg / max
DOI
VIIRS/JPSS1 Raw Radiances in Counts 6-Min L1A Swath - NRTVJ101_NRT75500- / - / -VJ101_NRT.021
VIIRS/JPSS1 Day/Night Band Moderate Resolution 6-Min L1B Swath 750m NRTVJ102DNB_NRT9502- / - / -VJ102DNB_NRT.021
VIIRS/JPSS1 Dual Gain IP NRTVJ102GDC_NRT54502- / - / -VJ102GDC_NRT.021
VIIRS/JPSS1 Moderate Resolution 6-Min L1B Swath 750m NRTVJ102MOD_NRT31502- / - / -VJ102MOD_NRT.021
VIIRS/JPSS1 Moderate Resolution 6-Min L1B Swath 750m NRTVJ102MOD_NRT31502- / - / -VJ102MOD_NRT.021
VIIRS/JPSS1 Imagery Resolution 6-Min L1B Swath 375m NRTVJ102IMG_NRT41502- / - / -VJ102IMG_NRT.021
VIIRS/JPSS1 Day/Night Band Moderate Resolution Terrain-Corrected Geolocation 6-Min L1 Swath 750m NRTVJ103DNB_NRT14501- / - / -VJ103DNB_NRT.021
VIIRS/JPSS1 Moderate Resolution Terrain-Corrected Geolocation 6-Min L1 Swath 750m NRTVJ103MOD_NRT11501- / - / -VJ103MOD_NRT.021
VIIRS/JPSS1 Imagery Resolution Terrain-Corrected Geolocation 6-Min L1 Swath 375m NRTVJ103IMG_NRT35501- / - / -VJ103IMG_NRT.021

Collection 2 VIIRS/NOAA-21 (JPSS-2)

Product NameDownloadVolume
GB/day
PGELatency (h:mm)
min / avg / max
DOI
VIIRS/JPSS2 Raw Radiances in Counts 6-Min L1A Swath - NRTVJ201_NRT75500- / - / -VJ201_NRT.002
VIIRS/JPSS2 Day/Night Band Moderate Resolution 6-Min L1B Swath 750m NRTVJ202DNB_NRT9502- / - / -VJ202DNB_NRT.002
VIIRS/JPSS2 Dual Gain IP NRTVJ202GDC_NRT54502- / - / -VJ202GDC_NRT.002
VIIRS/JPSS2 Moderate Resolution 6-Min L1B Swath 750m NRTVJ202MOD_NRT31502- / - / -VJ202MOD_NRT.002
VIIRS/JPSS2 Imagery Resolution 6-Min L1B Swath 375m NRTVJ202IMG_NRT41502- / - / -VJ202IMG_NRT.002
VIIRS/JPSS2 Day/Night Band Moderate Resolution Terrain-Corrected Geolocation 6-Min L1 Swath 750m NRTVJ203DNB_NRT14501- / - / -VJ203DNB_NRT.002
VIIRS/JPSS2 Moderate Resolution Terrain-Corrected Geolocation 6-Min L1 Swath 750m NRTVJ203MOD_NRT11501- / - / -VJ203MOD_NRT.002
VIIRS/JPSS2 Imagery Resolution Terrain-Corrected Geolocation 6-Min L1 Swath 375m NRTVJ203IMG_NRT35501- / - / -VJ203IMG_NRT.002
VIIRS/JPSS2 Thermal Anomalies/Fire 6-Min L2 Swath 750m NRTVJ214_NRT0.15530- / - / -VJ214_NRT.002
VIIRS/JPSS2 Active Fires 6-Min L2 Swath 375m NRTVJ214IMG_NRT0.41530- /- / -VJ214IMG_NRT.002

It was always intended that the VIIRS instrument aboard Suomi NPP would provide a bridge between Earth Observing System (EOS) MODIS and the operational Joint Polar Satellite System (JPSS) (formerly the National Polar Orbiting Operational Environmental Satellite System, or NPOESS) VIIRS instruments. In that context, the land science of VIIRS will build and expand on the heritage of land science from the NOAA Advanced Very High Resolution Radiometer (AVHRR) and EOS MODIS. The strength of these systems lies in their time-series of daily multi-spectral observations, which are used to characterize and monitor the land surface at regional to global scales. MODIS provided a new standard in calibrated, science-quality, coarse-resolution satellite observations that will continue with VIIRS. VIIRS data will be used to expand upon the MODIS applications to fire and air quality monitoring, agriculture monitoring and production modeling, carbon modeling, and flood and sea ice mapping.

VIIRS Corrected Reflectance imagery

The VIIRS Corrected Reflectance imagery is only produced in near real-time. It provides continuity from the MODIS Corrected Reflectance imagery that was developed to provide natural-looking images by removing gross atmospheric effects such as Rayleigh scattering from the visible bands. By contrast, the Surface Reflectance product is available in near real-time and as a standard product. Surface Reflectance provides a more complete atmospheric correction algorithm that includes aerosol correction and is designed to derive land surface properties. In clear atmospheric conditions the corrected reflectance product is similar to the SR product, but they depart from each other in the presence of aerosols.

Band Combinations

VIIRS (Suomi NPP/NOAA-20) Corrected Reflectance True Color

True Color: Red = Band I1 (600-680 nm), Green = Band M4 (545-565 nm), Blue = Band M3 (478-498 nm)

These images are called true-color or natural color because this combination of wavelengths is similar to what the human eye would see. The images are natural-looking images of land surface, oceanic, and atmospheric features.

The VIIRS Corrected Reflectance imagery is available only as NRT imagery. The imagery can be visualized in NASA's Worldview and Global Imagery Browse Services (GIBS). The sensor resolution is 750m and 375m (M Bands are 750m, I Bands are 375m), imagery resolution is 250m, temporal resolution is daily, and temporal availability for viewing in GIBS/Worldview is November 24, 2015, to present. View True Color (I1, M4, M3) in Worldview.

VIIRS (Suomi NPP/NOAA-20) Corrected Reflectance (Bands M3, I3, M11)

False Color: Red = M3 (478-498 nm), Green = I3 (1580-1640 nm), Blue = M11 (2225-2275 nm)

This combination is used to map snow and ice. Snow and ice are very reflective in the visible part of the spectrum (Band M3), and very absorbent in Bands I3 and M11 (short-wave infrared, or SWIR). This band combination is good for distinguishing liquid water from frozen water, for example, clouds over snow, ice cloud versus water cloud; or floods from dense vegetation. This layer is similar to the MODIS Corrected Reflectance Bands 3, 6, 7 layer.

The VIIRS Corrected Reflectance imagery is available only as NRT imagery. The imagery can be visualized in Worldview and GIBS. The sensor resolution is 750m and 375m (M Bands are 750m, I Bands are 375m), imagery resolution is 250m, temporal resolution is daily, and temporal availability for viewing in GIBS/Worldview is November 24, 2015, to present. View False Color (M3, I3, M11) in Worldview.

Snow and Ice

Since the only visible light used in these images (Band M3) is assigned to red, snow and ice appear bright red. The more ice, the stronger the absorption in the SWIR bands, and the more red the color. Thick ice and snow appear vivid red (or dark pink), while small ice crystals in high-level clouds will appear pinkish.

Vegetation

Vegetation will appear green in this band combination, as vegetation is absorbent in Bands M3 and M11, but reflective in Band I3. Bare soil and deserts will appear bright cyan in the image since it is much more reflective in Band I3 and M11 than Band M3.

Water

Liquid water on the ground will appear very dark since it absorbs in the red and the SWIR, but small liquid water drops in clouds scatter light equally in both the visible and the SWIR, and will therefore appear white. Sediments in water appear dark red.

VIIRS (Suomi NPP/NOAA-20) Corrected Reflectance (Bands M11, I2, I1)

False Color: Red = M11 (2225-2275 nm), Green = I2 (846-885 nm), Blue = I1 (600-680 nm)

This combination is most useful for distinguishing burn scars from naturally low vegetation or bare soil and enhancing floods.

This combination can also be used to distinguish snow and ice from clouds. Snow and ice are very reflective in the visible part of the spectrum (Band I1), and absorbent in Bands I2 (near infrared) and M11 (short-wave infrared, or SWIR). Thick ice and snow appear vivid sky blue, while small ice crystals in high-level clouds will also appear blueish, and water clouds will appear white. This layer is similar to the MODIS Corrected Reflectance Bands 7, 2, 1 layer.

VIIRS Corrected Reflectance imagery is available only as NRT imagery. The imagery can be visualized in Worldview, Worldview Snapshots, and GIBS. The sensor resolution is 750m and 375m (M Bands are 750m, I Bands are 375m), imagery resolution is 250m, temporal resolution is daily, and temporal availability for viewing in GIBS/Worldview is November 24, 2015, to present. View False Color (M11, I2, I1) in Worldview.

Vegetation and bare ground

Vegetation is very reflective in the near infrared (Band I2), and absorbent in Band I1 and Band M11. Assigning that band to green means even the smallest hint of vegetation will appear bright green in the image. Naturally bare soil, like a desert, is reflective in all bands used in this image, but more so in the SWIR (Band M11, red) and so soils will often have a pinkish tinge.

Burned areas

Burned areas or fire-affected areas are characterized by deposits of charcoal and ash, removal of vegetation, and the alteration of vegetation structure. When bare soil becomes exposed, the brightness in Band I1 may increase, but that may be offset by the presence of black carbon residue; the near infrared (Band I2) will become darker, and Band M11 becomes more reflective. When assigned to red in the image, Band M11 will show burn scars as deep or bright red, depending on the type of vegetation burned, the amount of residue, or the completeness of the burn.

Water

Liquid water on the ground appears very dark since it absorbs in the red and the SWIR. Sediments in water appear dark blue. Ice and snow appear as bright turquoise.

Clouds comprised of small water droplets scatter light equally in both the visible and the SWIR and will appear white. These clouds are usually lower to the ground and warmer. High and cold clouds are comprised of ice crystals and will appear turquoise.